News
Researchers at the University of Rochester use a tissue chip to study how inflammation and biochemical signals contribute to brain damage.
The center aims to develop standardized organoid-based methods to reduce the use of laboratory animals and increase reproducibility in research.
The October issue presents several new studies focusing on improved anesthesia protocols and advanced methods such as organ-on-chip and organoids.
On October 7, Christin Elster and Ashley Duplessis will present fluorescence-based techniques that improve the analysis of infarct and scar tissue in…
Join the Danish 3R Center’s annual symposium on 12–13 November 2025. Participation is free, but registration closes on 29 October.
The latest volume of the Animal Technology & Welfare Journal covers training, competence development, and improved animal welfare across species.
Center for Alternatives to Animal Testing (CAAT) has published their latest newsletter.
In September, the Danish 3R Center joined a workshop on the EU3Rnet. Ideas were shared, future solutions discussed, and networking took place.
A study shows that improved housing conditions can be implemented in obese rats, enhancing welfare without affecting physiology.
On Thursday, 28 August 2025, the University Hospital for Large Animals at the University of Copenhagen was expanded with a new simulation centre.
The Norwegian National Committee for Animal Research is hosting an online meeting regarding 3Rs in wild mammal research.
A new study shows that larger, enriched cages allow for natural behavior without compromising research quality.
WHO has updated its guidelines to promote the use of animal-free methods in the development and testing of medicines.
A new proposal on entrustable professional activities (EPAs) aims to ensure more reliable staff evaluations, thereby strengthening animal welfare.
Researchers have demonstrated the effectiveness of a new gene therapy for Batten disease without the use of animal testing. The results have paved the…
The report describes methods based on human biology, such as in vitro assays, organ-on-chip systems, and computer-based models.
